| Document |
Document Title |
|
WO/2011/152331 |
Provided is a small ultraviolet irradiation device which can emit ultraviolet rays in a highly efficient manner. Specifically disclosed is an ultraviolet irradiation device, wherein a container, which is hermetically sealed so that the i...
|
|
WO/2011/150174 |
A discharge lamp (9) comprises an electrode assembly (10) structured to induce tension in certain of the component electrodes and compression in others of the component electrodes. The balancing tensile and compressive forces cause the e...
|
|
WO/2011/138837 |
Disclosed is an efficient field-emission light source which can uniformly emit light. An emitter electrode (11) is comprised of a plurality of wire emitters (11a), the axes of which are parallel to one another. Each wire emitter has a li...
|
|
WO/2011/124555 |
The present invention relates to afield emission cathode, comprising an at least partly electrically conductive base structure, and a plurality of electrically conductive micrometer sized sections spatially distributed at the base struct...
|
|
WO/2011/079434 |
A field emission device for emitting white light is provided. The device includes a cathode plate assembly (1), an anode plate assembly (2) which is opposite to and spaced from the cathode plate assembly (1), and a supporting body (3) fo...
|
|
WO/2011/076523 |
The present invention relates to a field emission lighting arrangement (100), comprising a first field emission cathode (106), an anode structure (102) comprising a phosphor layer (108), and an evacuated envelope inside of which the anod...
|
|
WO/2011/076522 |
The present invention relates to a field emission lighting arrangement, comprising a field emission light source comprising an anode and a cathode and having an inherent predetermined capacitance, an inductor having a predetermined induc...
|
|
WO/2011/046157 |
Disclosed is a low-cost nanotube-nanohorn composite body, which has high aspect ratio, high dispersibility and excellent durability, while being controlled with respect to the diameter. Specifically, a structure that contains both a carb...
|
|
WO/2011/046224 |
Provided are a cold cathode electron source wherein raising and immobilization of an electron emission material are improved and electrons can be efficiently emitted, and a method for producing same. An electron emission material, an org...
|
|
WO/2011/043088 |
In order to obtain effective luminance and light-emission efficiency while avoiding electric discharge, it is required to sufficiently increase the current luminance efficiency of gas and the electron use efficiency of an electron source...
|
|
WO/2011/027881 |
A new device for emitting ultraviolet light, in particular, vacuum ultraviolet light, is provided in which the drawbacks of ultraviolet emitting devices currently in use, that is, the problems of large size, high electric-power consumpti...
|
|
WO/2011/022877 |
A luminescent element comprises a luminescent glass and a metal layer formed on the surface of the luminescent glass. Said metal layer has microstructure. The composition of said luminescent glass is bY2O3·cAl2O3·dB2O3·yTb2O3, wherein...
|
|
WO/2011/022875 |
A luminescent element comprises a luminescent glass and a metal layer formed on the surface of the luminescent glass. Said metal layer has microstructure. The composition of said luminescent glass is aR2O·bZnO·cSiO2·nMnO2, wherein R r...
|
|
WO/2011/022879 |
A luminescent element comprises a luminescent substrate and a metal layer formed on the surface of the luminescent substrate. Said metal layer has microstructure. Said luminescent substrate comprises luminescent material, the composition...
|
|
WO/2011/022878 |
A luminescent element comprises a luminescent substrate and a metal layer formed on the surface of the luminescent substrate. Said metal layer has microstructure. Said luminescent substrate comprises luminescent material, the composition...
|
|
WO/2011/022881 |
A luminescent element comprising nitride is provided. The element includes a luminescent film, a metal film with metal micro structure is formed on the surface of the luminescent film having a composition of Ga1-xAlxN:yRe, wherein Re is ...
|
|
WO/2011/022880 |
A luminescent element comprises a luminescent substrate and a metal layer formed on the surface of the luminescent substrate. Said metal layer has microstructure. Said luminescent substrate comprises luminescent material, the composition...
|
|
WO/2011/004601 |
Provided is a phosphor crystal film having high brightness, which is obtained by enhancing the crystallinity of a film that consists of aluminum nitride doped with rare earth metal ions at a high content level, and protecting the lumines...
|
|
WO/2010/148566 |
A luminescent glass element comprising a luminescent glass body is provided. A metal film with metal micro structure is formed on the surface of the luminescent glass body having a composition of aM2O•bY2O3•cSiO2•dTm2O3, wherein M ...
|
|
WO/2010/148553 |
A method for raising luminous efficiency of field emissive luminescent material, a luminescent glass element and the preparing method thereof are provided. The method for raising luminous efficiency of field emissive luminescent material...
|
|
WO/2010/148568 |
A luminescent glass element comprising a luminescent glass body is provided. A metal film with metal micro structure is formed on the surface of the luminescent glass body having a composition of aM2O•bY2O3•cSiO2•dSm2O3, wherein M ...
|
|
WO/2010/148569 |
A luminescent glass element comprising a luminescent glass body is provided. A metal film with metal micro structure is formed on the surface of the luminescent glass body having a composition of aM2O•bY2O3•cSiO2•dPr2O3, wherein M ...
|
|
WO/2010/118245 |
A sealed silicone coated compact fluorescent lamp ("CFL") which will contain the mercury and other dangerous debris within the silicone sheath if the CFL should break.
|
|
WO/2010/038792 |
A field emission lamp (1) which comprises a vacuum container (2), and a cathode electrode (3), gate electrode (4) and anode electrode (5) all arranged in the vacuum container (2). The field emission lamp (1) is characterized in that the...
|
|
WO/2010/013772 |
Provided is an emitter, which has a carbon film structure and emits field-emitted electrons. In the emitter, local field concentration is suppressed and current deterioration and discharge phenomenon due to thermal deterioration are pre...
|
|
WO/2010/005026 |
Disclosed is a light emitting device comprising a gastight container (1), a gas, an electron source (2), an anode electrode (3), a control unit (5) and a fluorescent element (4). The gastight container has a gastight property. The gas ...
|
|
WO/2009/141122 |
A lighting unit (2) for a display, especially in a flat screen (1), comprising a luminous substance provided in a light compartment (10), is to be provided, with which particularly high light output can be attained, while also maintainin...
|
|
WO/2009/138682 |
The subject of the invention is a field-emission flat lamp (100) transmitting radiation in the visible and/or the ultraviolet, comprising: first and second plane dielectric walls (1, 2) with an anode (3) and a cathode (4) respectively, t...
|
|
WO/2009/138682 |
The subject of the invention is a field-emission flat lamp (100) transmitting radiation in the visible and/or the ultraviolet, comprising: first and second plane dielectric walls (1, 2) with an anode (3) and a cathode (4) respectively, t...
|
|
WO/2009/066723 |
An electron emitting element (1) comprises a substrate (2), an upper electrode (3) and a particle layer (4) formed between the substrate (2) and the upper electrode (3). The particle layer (4) contains metal particles (6) having a high o...
|
|
WO/2009/031584 |
A large-area and high-luminance deep ultraviolet light source device is provided under circumstances where the scales of existing mercury lamps used as ultraviolet light sources cannot be reduced and light-emitting diodes of 365 nm or le...
|
|
WO/2008/157604 |
The preparation of microlenses on a substrate and light emitting devices employing microlenses on the surface from which light is emitted is described. The microlenses are formed on a surface that has been coated to have functionality th...
|
|
WO/2008/150353 |
A light-emitting device comprising a pair of electrodes, and an emitting polymer active layer between the pair of electrodes, and either a) an electron transport layer, b) a hole transport layer, or c) a low work function material layer,...
|
|
WO/2008/137170 |
In an embodiment of an LED light fixture (10), the fixture includes a housing (20) defining a chamber (24) and an LED module (30) that is outside the chamber and adjacent to the housing. The LED module includes a mounting board (32) with...
|
|
WO/2008/123931 |
A net negative charge is used to eliminate silver migration in an EL lamp (30). An electrode containing silver, either the entire electrode (38), a bus bar (47) on the electrode, or a contact area (48) on the electrode, receives a net ne...
|
|
WO/2008/110970 |
The invention relates to a tubular discharge lamp (10) and a method of preparing such a lamp. The lamp (10) has an integrated reflector (14) and visual identification means (11) that enable users to locate the reflector position within t...
|
|
WO/2008/102518 |
This invention provides a novel (Ca,Sr)S:Eu-based red phosphor which can further satisfactorily enhance brightness. The red phosphor is represented by general formula: (Ca1-x,Srx)S:Eu,In wherein x is 0 to 1 and the content of In is 0.05 ...
|
|
WO/2008/097449 |
A light emitting semiconductor device including a light emitting diode having a cascading phosphor is improved by the particles of phosphor (21) being coated with a moisture barrier layer (25) and a buffer layer (22). Either the buffer l...
|
|
WO/2008/098013 |
A cathodoluminescent lighting system has a light emitting device (110) having an envelope (250) with a transparent face (252), a cathode (240) for emitting electrons, an anode with a phosphor layer (254) and a conductor layer (242). The ...
|
|
WO/2008/098013 |
A cathodoluminescent lighting system has a light emitting device (110) having an envelope (250) with a transparent face (252), a cathode (240) for emitting electrons, an anode with a phosphor layer (254) and a conductor layer (242). The ...
|
|
WO/2008/098008 |
A light emitting device (100) has a cathode-ray tube (102, 104, 106, 112) and power supply (114). The cathode-ray tube in an embodiment is optimized for emitting a broad electron beam, in one variation a dome-shaped diffusing grid is use...
|
|
WO/2008/069243 |
A cold-cathode electron source having a cathode and an electron-emitting part provided on the cathode electrode and using an activated metal oxide. The activation is conducted by raising by tape peeling, by applying a laser beam, by appl...
|
|
WO/2008/048974 |
The invention relates to a process for making a SiO2- RExOy -Al2O3 glass comprising preparing a glass according to a conventional process wherein the conventional process comprises a step of heat treating a mixture of SiO2, RExOy, and Al...
|
|
WO/2008/045122 |
Mixtures and light-emitting devices that incorporate such mixtures are disclosed in which a soluble phenyl-substituted poly(para-phenylene vinylene) (PPV) copolymer ("superyellow") is used as the host light-emitting polymer and methyltri...
|
|
WO/2008/045122 |
Mixtures and light-emitting devices that incorporate such mixtures are disclosed in which a soluble phenyl-substituted poly(para-phenylene vinylene) (PPV) copolymer ("superyellow") is used as the host light-emitting polymer and methyltri...
|
|
WO/2008/039180 |
A individually formed EL module device, named herein as a nixel, adapted to be integrated into a modular electroluminescent display (ELD), is presented. The nixel of the present invention can be in the form of a subpixel, a pixel, or a p...
|
|
WO/2008/036107 |
Various mechanisms are provided relating to plasma-based light source that may be used for lithography as well as other applications. For example, a device is disclosed for producing extreme ultraviolet (EUV) light based on a sheared pla...
|
|
WO/2008/033256 |
A polymeric light-emitting diode (PLED) and methods of making same. In one embodiment, the PLED comprises a substrate, a layer of a first conductive material formed on a surface of the substrate, a layer of a conductive polymeric materia...
|
|
WO/2008/008167 |
A high brightness, durable, thick film electroluminescent lamp (30) includes a base having a thin layer of PET on a release layer (33) and a transparent front electrode (36) of ITO particles in a resin, a transparent rear electrode (45),...
|
|
WO/2008/005422 |
A photo-therapeutic, electrodeless lamp (10) comprising a closed-loop envelope (12) containing an arc generating and sustaining medium that includes mercury. A phosphor coating (14) is provided on the interior surface of the envelope (12...
|
